INtraprocedural Feedback-Optimized Renal Denervation Based on Measurements Obtained Through Renal Artery Stimulation: a Randomized Controlled Trial (INFORM)

Overview

Our previous study (Huang HC, Pan HY, Wang TD, Circ Cardiovasc Interv 2023;16:e012779) demonstrated that when renal artery stimulation continues to trigger systolic blood pressure increases (\>=20 mmHg increase compared to baseline) after the initial procedure, patients show poor blood pressure reduction 6 months following renal denervation. Based on this finding, we designed a proof-of-concept trial comparing two approaches: a guided strategy versus conventional renal denervation. In the guided strategy, we perform additional ablations of main and/or branch renal arteries if immediate post-procedure stimulation still elevates systolic blood pressure (\>=20 mmHg increase compared to baseline). The conventional approach involves no repeat procedures. This trial aims to determine whether the guided strategy leads to better clinical outcomes, measured by 6-month ambulatory blood pressure changes, and to establish the value of using intraprocedural feedback to assess and guide renal denervation treatment.

1. Anesthesia: Intravenous propofol to achieve adequate sedation throughout the course. 2. Renal artery stimulation (RAS) will be performed at 2 sites (proximal and distal main renal artery) in both renal arteries. Pacing frequency was set at 10 Hz, pacing output at 20 mA with a pulse duration of 10 ms, and duration of 60 sec based on earlier researches. The maximal systolic blood pressure rise and branch renal artery constriction since the start of RAS till 3 minutes after its discontinuation will be recorded. The body reaction during RAS will be recorded (0, no response; 1, mild (voice) response; 2. limited movement; 3. significant movement). 3. Renal denervation (RDN) will be performed using the multielectrode Symplicity Spyral RDN catheter. The multielectrode RDN catheter contains 4 electrodes separated from each other in a spiral configuration. Up to 4 discrete radiofrequency (RF) ablations were applied simultaneously. Each application lasts ≤60 s with a power ≤8 Watts (W) and a target temperature of ≤70°C (158°F). Electrodes that do not reach the therapeutic temperature or impedance drop are automatically switched off. 4. Post RDN renal artery stimulation: After RDN completed, renal artery stimulation will be repeated immediately. The maximal RAS-induced SBP changes will be recorded. All BP readings are the average of 8 consecutive beats by default (Siemens, Germany), which could minimize the inadvertent BP fluctuations by movements and respiration (8 beats could encompass at least one respiratory cycle). The branch renal artery constriction since the start of RAS till 3 minutes after its discontinuation will be recorded. The body reaction during RAS will be recorded (0, no response; 1, mild (voice) response; 2. limited movement; 3. significant movement).